Intelligent switching controller and power conversion circuits and methods

1. A power conversion circuit, comprising: an inductor having an input; a switch connected in series with the inductor; a voltage estimation circuit configured to i) receive a first voltage corresponding to the input of the inductor, and ii) generate, based on the first voltage, a second voltage corresponding to an estimate of an output voltage of the power conversion circuit; a current estimation circuit configured to i) receive a current flowing through the switch, and ii) generate an estimate of an output current of the power conversion circuit based on the current corresponding to the switch; and a controller configured to produce a pulse width modulated signal based on (i) the second voltage and (ii) the estimate of the output current of the power conversion circuit.

2. The power conversion circuit of claim 1 , wherein i) the switch includes a transistor, and ii) the controller is configured to provide the pulse width modulated signal to a gate terminal of the transistor.

3. The power conversion circuit of claim 1 , wherein the controller is configured to i) compare the first voltage to each of a first threshold voltage and a second threshold voltage, and ii) generate the second voltage based on the comparison of the first voltage to each of the first threshold voltage and the second threshold voltage.

4. The power conversion circuit of claim 1 , wherein the controller is configured to i) determine an average of the first voltage during a first period, and ii) generate the second voltage based on the average of the first voltage during the first period.

5. The power conversion circuit of claim 4 , wherein, during the first period, i) the switch is off, and ii) the current flowing through the switch is decreasing.

6. The power conversion circuit of claim 1 , wherein the controller is configured to i) during a first period, determine an average of the current flowing through the switch, and ii) generate, based on the average of the current flowing through the switch determined during the first period, the estimate of the output current of the power conversion circuit.

7. The power conversion circuit of claim 6 , wherein the first period corresponds to a time between the switch being turned off and the current flowing through the switch decreasing to zero.

8. The power conversion circuit of claim 1 , further comprising: an integrated circuit, wherein the integrated circuit includes the controller and the switch.

9. A method of operating a power conversion circuit, wherein the power conversion circuit includes (i) an inductor having an input, and (ii) switch connected in series with the inductor, the method comprising: receiving a first voltage corresponding to the input of the inductor; generating, based on the first voltage, a second voltage corresponding to an estimate of an output voltage of the power conversion circuit; receiving a current flowing through the switch; generating, based on the current flowing through the switch, an estimate of an output current of the power conversion circuit; and producing a pulse width modulated signal based on (i) the second voltage and (ii) the estimate of the output current of the power conversion circuit.

10. The method of claim 9 , wherein the switch includes a transistor, the method further comprising providing the pulse width modulated signal to a gate terminal of the transistor.

11. The method of claim 9 , further comprising: comparing the first voltage to each of a first threshold voltage and a second threshold voltage; and generating the second voltage based on the comparison of the first voltage to each of the first threshold voltage and the second threshold voltage.

12. The method of claim 9 , further comprising: determining an average of the first voltage during a first period; and generating the second voltage based on the average of the first voltage during the first period.

13. The method of claim 12 , wherein, during the first period, i) the switch is off, and ii) the current flowing through the switch is decreasing.

14. The method of claim 9 , further comprising: determining an average of the current flowing through the switch during a first period; and generating the estimate of the output current based on the average of the current flowing through the switch determined during the first period.

15. The method of claim 14 , wherein the first period corresponds to a time between the switch being turned off and the current flowing through the switch decreasing to zero.